Modifications of Visual Field Asymmetries for Face Categorization in Early Deaf Adults: A Study With Chimeric Faces

Dole, Marjorie; Méary, David; Pascalis, Olivier

doi:10.3389/fpsyg.2017.00030

Cited by 10 publications

(8 citation statements)

References 78 publications

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“…In bisection tasks, this could, in theory, lead to the left side being perceived as longer so that the perceived centre is shifted towards the left side. Prior findings suggest that the left hemisphere may be recruited to a greater extent in deaf than in hearing individuals by visuospatial tasks tapping on different abilities, such as motion discrimination, spatial processing, and face processing (e.g., Bosworth, Petrich, & Dobkins, 2013; Brozinsky & Bavelier, 2004; Cattani & Clibbens, 2005; Dole, Méary, & Pascalis, 2017; Weisberg, Koo, Crain, & Eden, 2012; but see Dye, Seymour, & Hauser, 2016), a finding that likely depends on both sensory deprivation per se and sign language use. Accordingly, in a prior study (Cattaneo, Lega, Cecchetto, & Papagno, 2014), we found that deaf individuals (irrespective of sign language use) did not show any systematic bias in bisecting visual lines, whereas hearing controls showed the typical tendency to over-represent the left portion of space (i.e., pseudoneglect).…”

Section: Introductionmentioning

confidence: 99%

Spatial biases in deaf, blind, and deafblind individuals as revealed by a haptic line bisection task

Cattaneo

Rinaldi

Geraci

et al. 2018

Quarterly Journal of Experimental Psychology

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In this study, we investigated whether auditory deprivation leads to a more balanced bilateral control of spatial attention in the haptic space. We tested four groups of participants: early deaf, early blind, deafblind, and control (normally hearing and sighted) participants. Using a haptic line bisection task, we found that while normally hearing individuals (even when blind) showed a significant tendency to bisect to the left of the veridical midpoint (i.e., pseudoneglect), deaf individuals did not show any significant directional bias. This was the case of both deaf signers and non-signers, in line with prior findings obtained using a visual line bisection task. Interestingly, deafblind individuals also erred significantly to the left, resembling the pattern of early blind and control participants. Overall, these data critically suggest that deafness induces changes in the hemispheric asymmetry subtending the orientation of spatial attention also in the haptic modality. Moreover, our findings indicate that what counterbalances the right-hemisphere dominance in the control of spatial attention is not the lack of auditory input per se, nor sign language use, but rather the heavier reliance on visual experience induced by early auditory deprivation.

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Section: Introductionmentioning

confidence: 99%

Spatial biases in deaf, blind, and deafblind individuals as revealed by a haptic line bisection task

Cattaneo

Rinaldi

Geraci

et al. 2018

Quarterly Journal of Experimental Psychology

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“…而语言加工的神经中枢位于左半球，因此听障个体在加工表情会显著激活大脑左半球的语言中枢，从而导致表情加工右脑优势效应的减弱或消失 [28] . 尽管对听障个体表情加工的偏侧化特点得到了较多的研究，但是目前很少有研究关注听障个体中性面孔加工的偏侧化特点 [33] . 对听障个体中性面孔加工的偏侧化特点研究不但能加深我们对听障个体视知觉特点的理解，还能更好地揭示人类面孔加工偏侧化的形成是如何受经验的影响.…”

Section: 以上研究也表明面孔识别能力的发展并不是独立的，其他知觉经验的获得也会影响面孔识别能力的发展此外，早期知觉经验的剥夺也会对面孔识别能力的发展产生影响例如，Leunclassified

“…对听障个体中性面孔加工的偏侧化特点研究不但能加深我们对听障个体视知觉特点的理解，还能更好地揭示人类面孔加工偏侧化的形成是如何受经验的影响. Dole 等人 [33] [34,35] . 并且，以往关于听障个体表情加工的研究表明，任务的性质也会影响到表情加工的偏侧化效应 [28,36] .…”

“…基于此，本研究以语前聋(听力障碍出现在 3 岁前)的成年学生和年龄匹配的健听学生为研究对象，通过行为实验(实验一)和电生理实验(实验二)考察听障个体面孔加工的大脑偏侧化特点. Dole 等人 [33] 的研究采用的是面孔嵌合实验任务，尽管可以根据对左/右半边脸的加工偏向来考察左/右侧视野加工优势，但是嵌合面孔总是呈现在中央视野. 在本研究的实验一中，我们采用分视野范式(divided visual field paradigm)，面孔刺激呈现在左或者右侧视野.…”

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Brain lateralization of face recognition in hearing-impairedindividuals

Chen¹,

Lan²,

Yu³

et al. 2021

Sci. Sin.-Vitae

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“…A compelling illustration of the multisensorial integration of speech is the McGurk effect (McGurk and MacDonald, 1976). During ecological face-to-face interactions, perception of the speaker's orofacial articulatory movements offers critical complementary information for speech perception during infancy (Weikum et al, 2007;Lewkowicz and Hansen-Tift, 2012;Sebastián-Gallés et al, 2012;Tenenbaum et al, 2012), speech-in-noise perception (Sumby and Pollack, 1954;Ross et al, 2006), for non-native speech processing (Navarra and Soto-Faraco, 2005;Hirata and Kelly, 2010) and for people with hearing difficulties (Bernstein et al, 2000;Auer and Bernstein, 2007;Letourneau and Mitchell, 2013;Dole et al, 2017;Worster et al, 2017).…”

Section: Visemes-phoneme Bindingmentioning

confidence: 99%

Electrophysiological Dynamics of Visual Speech Processing and the Role of Orofacial Effectors for Cross-Modal Predictions

Michon

Boncompte

López

2020

Front. Hum. Neurosci.

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The human brain generates predictions about future events. During face-to-face conversations, visemic information is used to predict upcoming auditory input. Recent studies suggest that the speech motor system plays a role in these cross-modal predictions, however, usually only audiovisual paradigms are employed. Here we tested whether speech sounds can be predicted on the basis of visemic information only, and to what extent interfering with orofacial articulatory effectors can affect these predictions. We registered EEG and employed N400 as an index of such predictions. Our results show that N400's amplitude was strongly modulated by visemic salience, coherent with cross-modal speech predictions. Additionally, N400 ceased to be evoked when syllables' visemes were presented backwards, suggesting that predictions occur only when the observed viseme matched an existing articuleme in the observer's speech motor system (i.e., the articulatory neural sequence required to produce a particular phoneme/viseme). Importantly, we found that interfering with the motor articulatory system strongly disrupted cross-modal predictions. We also observed a late P1000 that was evoked only for syllable-related visual stimuli, but whose amplitude was not modulated by interfering with the motor system. The present study provides further evidence of the importance of the speech production system for speech sounds predictions based on visemic information at the pre-lexical level. The implications of these results are discussed in the context of a hypothesized trimodal repertoire for speech, in which speech perception is conceived as a highly interactive process that involves not only your ears but also your eyes, lips and tongue.

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Modifications of Visual Field Asymmetries for Face Categorization in Early Deaf Adults: A Study With Chimeric Faces

Cited by 10 publications

References 78 publications

Spatial biases in deaf, blind, and deafblind individuals as revealed by a haptic line bisection task

Spatial biases in deaf, blind, and deafblind individuals as revealed by a haptic line bisection task

Brain lateralization of face recognition in hearing-impairedindividuals

Electrophysiological Dynamics of Visual Speech Processing and the Role of Orofacial Effectors for Cross-Modal Predictions

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